ERK 激活剂 BCI 抑制纤毛生成，并导致运动行为、纤毛门控和细胞骨架重排缺陷。

The ERK activator, BCI, inhibits ciliogenesis and causes defects in motor behavior, ciliary gating, and cytoskeletal rearrangement.

机构信息

Biochemistry and Cell Biology Department, Geisel School of Medicine at Dartmouth College, Hanover, NH, USA.

Anatomy and Cell Biology Department, University of Kansas Medical Center, Kansas City, KS, USA.

出版信息

Life Sci Alliance. 2023 Mar 13;6(6). doi: 10.26508/lsa.202301899. Print 2023 Jun.

DOI:10.26508/lsa.202301899

PMID:36914265

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10011610/

Abstract

MAPK pathways are well-known regulators of the cell cycle, but they have also been found to control ciliary length in a wide variety of organisms and cell types from neurons to mammalian photoreceptors through unknown mechanisms. ERK1/2 is a MAP kinase in human cells that is predominantly phosphorylated by MEK1/2 and dephosphorylated by the phosphatase DUSP6. We have found that the ERK1/2 activator/DUSP6 inhibitor, (E)-2-benzylidene-3-(cyclohexylamino)-2,3-dihydro-1H-inden-1-one (BCI), inhibits ciliary maintenance in and hTERT-RPE1 cells and assembly in These effects involve inhibition of total protein synthesis, microtubule organization, membrane trafficking, and KAP-GFP motor dynamics. Our data provide evidence for various avenues for BCI-induced ciliary shortening and impaired ciliogenesis that gives mechanistic insight into how MAP kinases can regulate ciliary length.

摘要

MAPK 途径是细胞周期的已知调节剂，但也已发现它们通过未知机制控制各种生物体和细胞类型（从神经元到哺乳动物光感受器）的纤毛长度。ERK1/2 是人类细胞中的一种 MAP 激酶，主要由 MEK1/2 磷酸化，并通过磷酸酶 DUSP6 去磷酸化。我们发现 ERK1/2 激活剂/DUSP6 抑制剂（E）-2-苄叉基-3-（环己氨基）-2,3-二氢-1H-茚-1-酮（BCI）可抑制和 hTERT-RPE1 细胞中的纤毛维持以及的纤毛组装。这些作用涉及总蛋白合成、微管组织、膜运输和 KAP-GFP 运动动力学的抑制。我们的数据为 BCI 诱导的纤毛缩短和受损的纤毛发生提供了多种途径的证据，为 MAP 激酶如何调节纤毛长度提供了机制上的见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/502f/10011610/3c9ad346a56f/LSA-2023-01899_Fig1.jpg

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ERK 激活剂 BCI 抑制纤毛生成，并导致运动行为、纤毛门控和细胞骨架重排缺陷。

The ERK activator, BCI, inhibits ciliogenesis and causes defects in motor behavior, ciliary gating, and cytoskeletal rearrangement.

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